Screening of selected wheat cultivars for leaf rust resistance genes

Screening of selected wheat cultivars for leaf rust resistance genes

Genetic resistance is the most economical and efficient way to reduce production losses brought on by diseases. Plant breeders continuously incorporate new, dependable sources into their breeding materials to continue developing disease-resistant genotypes. Fourteen certified wheat (Triticum aestivu...

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Bibliographic Details
Published in:Journal of crop improvement Vol. 38; no. 4; pp. 317 - 328
Main Authors: Ali, Jawad, Asad, Fayaz, Irshad, Muhammad, Yaseen, Tabassum, Ahamd, Imtiaz, Ambrin
Format: Journal Article
Language:English
Published: Philadelphia Taylor & Francis 03-07-2024
Taylor & Francis Ltd
Subjects:
Agricultural research
Agriculture
Cultivars
Cultivation
Disease resistance
Genes
Genotypes
Grain cultivation
Leaf rust
Leaf-rust resistance
Leaves
Lr genes
Plant breeding
Plant diseases
Puccinia triticina
Research facilities
Seeds
Triticum aestivum
Wheat
wheat cultivars
wheat yield losses
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Summary:Genetic resistance is the most economical and efficient way to reduce production losses brought on by diseases. Plant breeders continuously incorporate new, dependable sources into their breeding materials to continue developing disease-resistant genotypes. Fourteen certified wheat (Triticum aestivum L.) cultivar (Bahawalpur-2000, NIFA-Bathor08, Fareed-2006, Haider-2002, Imdad-2005, Lasani-2008, Marvi-2000, Moomal-2000, Manther-2003, Pirsabak-2006, Iqbal-2000, Pirsabak-2004, Shahkar-2013, and Wafaq-2002) seeds from the Nuclear Institute for Food and Agriculture (NIFA) and National Agriculture Research Center (NARC) were grown in pots. DNA obtained from fresh leaves of the wheat cultivars were screened for leaf rust resistance genes (i.e. Lr-51, Lr-47, Lr-46, Lr-37, Lr-36, Lr-35, Lr-34, Lr-28, Lr-25, Lr-19, Lr-13, Lr-9, and Lr-1 using PCR. Results showed that the Lr-47 gene was present in nine wheat cultivars, Lr-1 and Lr-28 in eight, Lr-5, Lr-9, and Lr-13 in three, and Lr-19 and Lr-37 in one cultivar. In the selected wheat cultivars, the resistance genes Lr-25, Lr-35, Lr-36, and Lr-46 were not observed. This study suggests cultivating wheat varieties Haider-2002, Iqbal-2000, Lasani-2008, Manther-2003, Pirsbak-2004, Pirsbak-2006, Shahkar-2013, and Wafaq-2002 for high level of resistance to rust and protection against high production losses. In future studies, phenotypic data alongside genotypic screening will improve the assessment of leaf rust resistance in wheat cultivars, leading to a better understanding of their disease resistance profiles.
ISSN:1542-7528
1542-7536
DOI:10.1080/15427528.2024.2340505